# Greetings from The On-Line Encyclopedia of Integer Sequences! http://oeis.org/ Search: id:a079614 Showing 1-1 of 1 %I A079614 #55 Oct 16 2023 09:28:00 %S A079614 1,2,5,1,6,4,7,5,9,7,7,9,0,4,6,3,0,1,7,5,9,4,4,3,2,0,5,3,6,2,3,3,4,6, %T A079614 9,6,9 %N A079614 Decimal expansion of Bertrand's constant. %C A079614 From Bertrand's postulate (i.e., there is always a prime p in the range n < p < 2n) one can show there is a constant b such that floor(2^b), floor(2^2^b), ..., floor(2^2^2...^b), ... are all primes. %C A079614 This result is due to Wright (1951), so Bertrand's constant might be better called Wright's constant, by analogy with Mills's constant A051021. - _Jonathan Sondow_, Aug 02 2013 %D A079614 S. Finch, Mathematical Constants, Cambridge Univ. Press, 2003; see section 2.13 Mills's constant. %H A079614 C. K. Caldwell, Prime Curios! 137438953481. %H A079614 Pierre Dusart, Estimates of some functions over primes without R. H., arXiv:1002.0442 [math.NT], 2010. %H A079614 J. Sondow, E. Weisstein, Bertrand's Postulate. %H A079614 E. M. Wright, A prime-representing function, Amer. Math. Monthly, 58 (1951), 616-618. %F A079614 1.251647597790463017594432053623346969... %e A079614 2^(2^(2^1.251647597790463017594432053623)) is approximately 37.0000000000944728917062132870071 and A051501(3)=37. %Y A079614 Cf. A051021, A051501, A060715. %K A079614 cons,hard,more,nonn %O A079614 1,2 %A A079614 _Benoit Cloitre_, Jan 29 2003 %E A079614 More digits (from the Prime Curios page) added by _Frank Ellermann_, Sep 19 2011 %E A079614 a(16)-a(37) from _Charles R Greathouse IV_, Sep 20 2011 %E A079614 Definition clarified by _Jonathan Sondow_, Aug 02 2013 # Content is available under The OEIS End-User License Agreement: http://oeis.org/LICENSE